CROSS REFERENCE TO RELATED APPLICATIONThis application claims the benefit of
U.S. Application No. 61/227,206, filed July 21, 2009, the disclosure of which is incorporated by reference in its entirety.
BACKGROUNDTechnical FieldThe present disclosure is generally directed to surgical devices, and more specifically, to a surgical access device comprising a wound retractor and an internal retractor.
Description of the Related ArtAbdominal surgical procedures often entail entry into a patient's abdominal cavity and subsequent manipulation of internal structures therein, such as the small intestine, colon, mesentery, and other fatty structures. For example, large portions of a patient's small intestine are often displaced to provide clear access to the patient's spleen in some surgical procedures thereon. Gauze pads and/or sponges are often used to dam-up the displaced structures. Pads and/or sponges often slip and/or are difficult to place, however, especially through smaller incision sites. The pads and/or sponges are also typically carefully accounted for during surgery, thereby preventing one from being left behind within the patient.
Recent abdominal surgical procedures prefer smaller incisions, for example, laparoscopic surgeries. Laparoscopic surgical procedures often involve multiple small incisions of from between about five millimeters to about twelve millimeters. Some more complex procedures include a larger single incision. For instance, a five centimeter incision at the umbilicus that is circumferentially retracted by a circular wound retractor accommodates several laparoscopic instruments at the same time, or even a surgeon's hand extending into the abdominal cavity. Maintaining a clear operative area within the abdominal cavity while limiting the access area is desirable.
Additionally, surgical procedures of the lower abdomen and pelvis are also performed using single-incision techniques, in which a clear, unrestricted working space is also desirable.
SUMMARY OF THE INVENTIONDevices, methods, and systems provide a surgical access device comprising an internal retractor device integrated with or coupled to a body wall or wound retractor. The wound retractor retracts an opening in a body wall into a body cavity, while the internal retractor permits a user to control the positions of internal structures within the body cavity, thereby permitting a user to define a surgical field. Embodiments of the internal retractor are adjustable.
Some embodiments provide surgical access device comprising: a proximal end, a distal end, a longitudinal axis extending from the proximal end to the distal end, and an access channel extending therethrough; a wound retractor comprising an outer ring, an inner ring, and a tubular sheath extending between the outer ring and the inner ring; and an internal retractor coupled to the wound retractor in an operative state of the surgical access device, wherein in the operative state, at least a portion of the internal retractor extends distally of the inner ring.
In some embodiments, the outer ring of the wound retractor is rotatable around an annular axis thereof, thereby permitting adjustment of an effective length of the tubular sheath between the inner ring and the outer ring.
In some embodiments, the internal retractor and the wound retractor are integrated. In some embodiments, the internal retractor is user coupled to the wound retractor in the operative state.
In some embodiments, at least a portion of the internal retractor is adjustable by at least one of bending, twisting, stretching, compressing, inflating, cutting, tearing, removing, and sliding. In some embodiments, the internal retractor comprises at least one of a flexible cover and a dam portion. In some embodiments, the internal retractor comprises at least one window therethrough.
In some embodiments, the internal retractor comprises a plurality of elongate, distally extending shapeable members. In some embodiments, the shapeable members are coupled to the inner ring of the wound retractor. In some embodiments, the shapeable members are coupled to the outer ring of the wound retractor. In some embodiments, the internal retractor further comprises a connection feature or base coupling the shapeable member to the outer ring.
In some embodiments, the internal retractor comprises a plurality of inflatable supporting members, a plurality of dam portions extending between adjacent supporting members, and a peripheral ring.
In some embodiments, the internal retractor comprises a plurality of segments extending from a hub and slidable on the hub in a folding-fan structure.
In some embodiments, the internal retractor comprises a skirt member extending distally of the wound retractor and a support member coupled to a distal end of the skirt member. In some embodiments, the support member comprises at least one of an elastically deformable material, a plastically deformable material, and a plurality of linked members.
In some embodiments, the internal retractor comprises a tubular skirt extending distally from the wound retractor in the operative state, and a retention ring disposed at a distal end of the tubular skirt, wherein a diameter of the retention ring is larger than a diameter of at least one of the inner ring and the outer ring of the wound retractor, and wherein the retention ring is sufficiently deformable to pass through the wound retractor.
In some embodiments, the internal retractor comprises an inflatable torus.
In some embodiments, the internal retractor comprises a radially deformable tube. In some embodiments, the tube is substantially cylindrical, elliptical cylindrical, or frustoconical. In some embodiments, the tube comprises a plurality of stacked, annular segments. In some embodiments, at least one of the annular segments is detachable from the tube.
In some embodiments, the internal retractor comprises a radially compressible frame defining a tube. In some embodiments, the frame comprises at least one of a circumferentially serpentine member, a longitudinally serpentine member, and a lattice.
Some embodiments further comprise a cover disposed over the frame.
In some embodiments, the internal retractor comprises a deformable, planar frame, a cover disposed over the frame, and a connection feature couplable to the wound retractor.
In some embodiments, the internal retractor comprises a body comprising a groove along at least a portion thereof, wherein the groove is dimensioned to receive the inner ring of the wound retractor therein. In some embodiments, the body further comprises a connection feature disposed along at least a portion of a distal edge thereof, wherein the connection feature is couplable with an extender comprising a complementary connector disposed along at least a portion of a proximal edge thereof. In some embodiments, the connector of the extender is a first connector, and a distal edge of the extender further comprises a second connector disposed along at least a portion thereof that is couplable with a second extender.
Some embodiments provide a surgical access device comprising: a proximal end, a distal end, a longitudinal axis extending from the proximal end to the distal end, and an access channel extending therethrough; a wound retractor comprising an outer ring, an inner ring, and a tubular sheath extending between the outer ring and the inner ring; and means for retracting contents of a body cavity coupled to the wound retractor.
Some embodiments provide a method for defining a surgical field in a body cavity comprising: inserting an inner ring of a wound retractor of a surgical access device through an opening in a body wall and into a body cavity; retracting the opening in the body wall; and deploying an adjustable internal retractor within the body cavity and defining a surgical field.
Some embodiments provide a surgical retractor comprising: a proximal end, a distal end, and a longitudinal axis extending from the proximal end to the distal end; a proximal portion; a distal retention portion; an adjustable tubular middle portion extending between the proximal portion and the distal retention member; an access opening extending through the proximal portion, the distal retention portion, and the tubular middle portion; and an adjustable extending member extending distally from the distal retention portion, wherein in a deployed state, the extendable member is operable to retract an internal body structure.
In some embodiments, the extending member comprises a plurality of inflatable supporting members, a plurality of dam portions extending therebetween, and a peripheral ring.
In some embodiments, the extending member comprises a plurality of segments comprising a proximal end and a distal end, wherein the proximal end of each segment is disposed in a track on the distal retention ring, thereby allowing the segments to bypass each other.
In some embodiments, the extending member comprises a plurality of shapeable members extending distally from the distal retention ring.
In some embodiments, the extending member comprises a shapeable support member and a skirt member extending between the support member the distal retention ring.
In some embodiments, the extending member comprises a deformable retention ring and a tubular flexible sheath extending between the distal retention member and the retention ring, wherein the retention ring is convertible between an undeployed configuration, in which the retention ring is proximal of the proximal portion and the flexible sheath extends through the middle portion, and the deployed configuration, in which the retention ring is distal of the distal retention member.
In some embodiments, the extending member is couplable to the distal retention portion.
In some embodiments, the extending member comprises an open area.
Some embodiments provide a surgical retractor comprising: a proximal end, a distal end, and a longitudinal axis extending from the proximal end to the distal end; a proximal portion; a distal retention portion; an adjustable tubular middle portion extending between the proximal portion and the distal retention member; an access opening extending through the proximal portion, the distal retention portion, and the tubular middle portion; and means for retracting an internal structure coupled to the distal retention portion.
Some embodiment provide a method for defining a surgical field in a body cavity comprising: inserting the distal retention portion of a retractor through a wound and into a body cavity; adjusting a length of the tubular middle portion, thereby retracting the wound; and deploying the extending member, thereby retracting a structure within the body cavity and defining a surgical field.
BRIEF DESCRIPTION OF THE DRAWINGS- FIG. 1A is a front view of a patient for surgery of the abdomen.FIG. 1B is a partial front cross section illustrating abdominal content.FIG. 1C is a partial front cross section of a patient schematically illustrating the placement of a wound retractor in the abdomen.FIG. 1D is a partial side cross section of a patient illustrating the placement of a wound retractor in the abdomen.
- FIG. 2 is a perspective view of an embodiment of an access device comprising an internal retractor comprising a plurality of shapeable members.
- FIG. 3 is a perspective view of another embodiment of an access device comprising an internal retractor comprising an inflatable member.
- FIG. 4 is a perspective view of another embodiment of an access device comprising an internal retractor comprising a fan-like device.
- FIG. 5 is a perspective view of another embodiment of an access device comprising an internal retractor comprising a shapeable or deformable support member.
- FIG. 6A is a perspective view of another embodiment of an access device comprising a shapeable internal structure in an undeployed configuration.FIGS. 6B and6C are perspective views of the access device illustrated inFIG. 6A in partially deployed configurations.FIG. 6D is a perspective view of the access device illustrated inFIG. 6A in a deployed configuration.
- FIG. 7 is a perspective view of another embodiment of an access device comprising an internal retractor comprising an inflatable, toroidal internal retractor.
- FIG. 8 is a perspective view of another embodiment of an access device comprising an internal retractor comprising a radially compressible tube.
- FIG. 9 is a perspective view of another embodiment of an access device comprising an internal retractor comprising a circumferentially serpentine frame defining a tube.
- FIG. 10 is a perspective view of another embodiment of an internal retractor comprising a longitudinally serpentine frame defining a tube.
- FIG. 11 is a perspective view of another embodiment of an internal retractor comprising a lattice frame defining a tube.
- FIG. 12 is a perspective view of another embodiment an internal retractor comprising a planar, deformable frame.
- FIG. 13A is a side view of another embodiment of an access device comprising an internal retractor comprising a body couplable to a wound retractor.FIG. 13B is a detail of the internal retractor.FIG. 13C is a perspective view of the body illustrated inFIG. 13A and an extender couplable to the body.
- FIG. 14 is a perspective view of another embodiment an internal retractor comprising a plurality of elongate, shapeable members.
- FIG. 15 is a perspective view of another embodiment an internal retractor comprising a plurality of elongate, shapeable members.
- FIG. 16A is a partial side cross section of a patient prior to deploying an internal retractor in the abdomen.FIG. 16B is a partial front cross section andFIG. 16C is a partial side cross section of a patient in which an internal retractor has been deployed in the abdomen.
Similar reference characters refer to similar features throughout.
DETAILED DESCRIPTION OF CERTAIN EMBODIMENTSFIG. 1A is a front view of apatient10 for surgery of the abdomen20 with anincision site22 at the umbilicus.FIG. 1B is a partial cross section illustratingabdominal content30 confined by abody wall40, various adhesions, and connections. Thecontent30 is generally moist, slippery, and difficult to manage, and is especially true for thesmall intestine32. As shown schematically inFIG. 1C and in a partial side cross section inFIG. 1D, acircular retractor50 is placed through an incision in thebody wall40 and into anabdominal cavity42, thereby providing a surgeon with clear access to theabdominal content30.
FIG. 2 is a perspective view of an embodiment of asurgical access device200 comprising awound retractor250 and an adjustableinternal retractor270. Thewound retractor250 is disposed at aproximal end202 of thedevice200, and theinternal retractor270 is disposed at adistal end204. Alongitudinal axis206 extends from theproximal end202 to thedistal end204. Anaccess channel208 extends through thedevice200.
In the illustrated embodiment, thewound retractor250 comprises a proximal orouter ring252; a deformable distal orinner ring254; and a flexible,tubular sheath256 disposed between theouter ring252 and theinner ring254.
Theinner ring254 is deformable or flexible, which permits a user to insert theinner ring254 through an incision or opening in a body wall with a smaller diameter than a relaxed diameter of theinner ring254, and into a body cavity. Theinner ring254 is also sufficiently rigid to resist deformation when disposed against an inner surface of the body wall and under tension by thetubular sheath256 extending through the incision or opening.
Thewound retractor250 is adjustable or non-adjustable. In the illustrated embodiment, thewound retractor250 is an adjustable wound retractor. In the illustrated embodiment, theouter ring252 is rotatable around an annular axis thereof, which winds and/or unwinds thetubular sheath256 therearound, thereby adjusting an effective length of thetubular sheath256 and a distance between theouter ring252 and theinner ring254. This adjustability permits a user to retract an opening or wound in a body cavity. The illustratedouter ring252 comprises afirst tube252a and asecond tube252b. In other embodiments, theouter ring252 has another shape, for example, comprising an oval, elliptical, and/or elongated cross section, with a major or longer axis either parallel with or perpendicular to the longitudinal206. In some embodiments, theouter ring252 further comprises one or more circumferential lumens. In some embodiments, a wire or hoop is disposed in one or more of the lumens. In some embodiments, the wire(s) or hoop(s) is non-compliant. In some embodiments, the wire(s) or hoop(s) is a split hoop.
Theouter ring252,inner ring254, andtubular sheath256 independently comprise any suitable biocompatible material, for example, one or more polymer resins. In embodiments in which theouter ring252 comprises a wire or hoop, the wire or hoop comprise at least one of metal, stainless steel, spring steel, nitinol, polymer, ceramic, fibers, composites thereof, and the like.
In some embodiments, the
retractor250 is manufactured in a plurality of sizes, for example, diameters of at least one of the
outer ring252, the
inner ring256, and
sheath256, and/or length of the
sheath256. Some embodiments of the
access device200 further comprise a cap or lid (not illustrated) couplable to the
outer ring252, which closes and/or seals the
access channel208. Some embodiments of the cap or lid permit instrument and/or hand access through the cap or lid and into the
access channel208. Suitable wound retractors, caps, and lids are also disclosed in
U.S. Patent Nos. 7,727,146;
7,650,887; and
7,704,207, and
U.S. Patent Application Publication No. 2010/0094227 A1, all the disclosures of which are incorporated by reference.
Theinternal retractor270 in the illustrated embodiment is coupled to theinner ring254 of theretractor250 and extends distally of theinner ring254. In the illustrated embodiment, theinternal retractor270 comprises a plurality of a plurality of elongate,shapeable members272, each extending distally from theinner ring254 of thewound retractor250. In the illustrated embodiment, eachshapeable member272 angles away from thelongitudinal axis206, although in other embodiments, one or more of theshapeable members272 extends in a different direction, for example, substantially parallel with thelongitudinal axis206 and/or towards thelongitudinal axis206.
Eachshapeable member272 in the illustrated embodiment comprises an elongate segment and/or wing that comprises any suitable material, for example, at least one of a polymer resin or metal. Some embodiments of theshapeable members272 comprise an elastically deformable material, for example, metal, stainless steel, spring steel, polymer, fibers, and combinations thereof. Some embodiments of theshapeable members272 comprise a malleable and/or plastically deformable material, for example, metal, stainless steel, a super elastic material, a shape memory material, clay, clay-like material, and combinations thereof. In some embodiments, one or more of theshapeable members272 is partially or completely coated and/or covered with at least one of fabric, gauze, and foam thereby improving traction and/or fluid absorption. In some embodiments, one or more of theshapeable members272 is partially or completely coated and/or covered with a fluid repellant and/or fluid impermeable material. In some embodiments, one or more of theshapeable members272 comprises a textured and/or non-slip surface. Some embodiments of theshapeable members272 comprise, for example, wire, strips, sheets, and perforated sheets.
In some embodiments one or more of theshapeable members272 is curved along a transverse axis, thereby stiffening theshapeable members272 using the principle that stiffens a Venetian blind slats. In the illustrated embodiment, at least one of an angle with thelongitudinal axis206, and a shape of each individualshapeable member272 is adjustable, thereby retracting structures or organs from, and/or preventing structures or organs from entering a selected surgical field or area, thereby improving access to surgical targets therein. For example, in some embodiments, at least a portion of ashapeable member272 is bendable transverse to a locallongitudinal axis274 thereof. In some embodiments, at least a portion of ashapeable member272 is bendable or twistable around the locallongitudinal axis274.
In some embodiments, at least one of theshapeable members272 is integrated with theinner ring254. In some embodiments, at least one of theshapeable members272 is separately manufactured, then coupled to theinner ring254. For example, some embodiments of theinner ring254 comprise at least one connecting feature to which theshapeable members272 are coupled. In some embodiments, a proximal end of at least oneshapeable member272 comprises a connecting feature that secures theshapeable member272 to theinner ring254 at a desired angle with respect to thelongitudinal axis206. Suitable connecting features include, for example, mechanical fasteners, clips, clamps, friction fittings, hook-and-loop fasteners, snaps, ties, screws, latches, joints, hinges, ball joints, living hinges, and the like. In some embodiments, theshapeable members272 are coupled to theinner ring254 as a unit, for example, joined by a web and/or ring at a proximal end of theinternal retractor270. In some embodiments,shapeable members272 are individually coupled to theinner ring254. In some embodiments, one or more of theshapeable members272 are removable as desired, for example, by cutting, breaking off, and the like. In some embodiments, theinternal retainer270 is removable, for example, after completing a portion of a surgical procedure. Some embodiments of theinternal retractor270 are not coupled to a wound retractor and are used independently of the wound retractor.
In the illustrated embodiment, thelocal axis274 of eachshapeable member272 is substantially normal to theinner ring254. In other embodiments, thelocal axis274 of at least oneshapeable member272 subtends another angle with theinner ring254 in a generally helical configuration. For example, in some embodiments, all of theshapeable members272 together define a helicalinternal retractor270.
Some embodiments of theinternal retractor270 further comprise a dam or cover (not illustrated) that is securable to one or more of theshapeable members272, thereby defining an umbrella-like structure, which improves retraction of internal organs. The cover is similar to the dam portions described and illustrated below, and like the dam portions, comprises a single piece or a plurality of pieces, and similar materials. The cover is permanently or temporarily secured, for example, using adhesive, pressure sensitive adhesive, mechanical fasteners, clips, clamps, friction fittings, hook-and-loop fasteners, snaps, ties, screws, latches, and the like. In some embodiments, the cover comprises one or more pockets dimensioned to receive one or more of theshapeable members272 therein. In some embodiments, one or more portions of the cover are removable by a user, for example, by cutting or tearing.
FIG. 3 is a perspective view of an embodiment of asurgical access device300 generally similar to the embodiment discussed above. Theaccess device300 comprises aproximal end302, adistal end304, alongitudinal axis306, anaccess channel308, awound retractor350 disposed at theproximal end302, and an adjustableinternal retractor370 disposed at thedistal end304. Thewound retractor350 is generally similar to the embodiment of thewound retractor250 described above, and comprises anouter ring352, aninner ring354, and aflexible sheath356. Theinternal retractor370 is integrated with thewound retractor350 or manufactured as a separate component, which is preattached to thewound retractor350 or user attached, or used without coupling to a wound retractor, as discussed above.
The illustrated embodiment of theinternal retractor370 comprises a plurality of longitudinally extending inflatable supportingmembers372 and a plurality ofdam portions374 extending between adjacent supportingmembers372. In other embodiments, asingle dam portion374 extends across a plurality of inflatable supportingmembers372. The illustrated embodiment also comprises aperipheral ring376. In some embodiments, theperipheral ring376 is fluidly connected to at least one supportingmember372, and consequently, is inflatable with the at least one supportingmember372. In other embodiments, theperipheral ring376 is not inflatable. In some embodiments, theperipheral ring376 comprises a plurality of linked members, for example, ball-and-socket segments. In the illustrated embodiment, theinternal retractor370 is generally frustoconical in an inflated state, diverging distally from thelongitudinal axis304.
In the illustrated embodiment, theinternal retractor370 comprises an open area orwindow378, which permits access to tissue and/or organs outside the perimeter of theinternal retractor370. The open area orwindow378 allows a surgeon to place instruments and/or a hand into areas above, to the side of, and/or below theinternal retractor370, which is useful, for example, when working in the lower abdomen or pelvis. Some embodiments comprise a plurality of open areas orwindows378. Some embodiments of theinternal retractor370 do not comprise an open area or window. In some embodiments, theinternal retractor370 is supplied without an open area orwindow378, and the user creates one or more as desired, for example, by removing selecteddam portions374. In some embodiments, the spacing of the supportingmembers370 is not uniform, thereby permitting a user to select a desired size of the open area orwindow378.
Embodiments of theinternal retractor370 comprise at least one of rubber, polymer resin, fabric, foam, and elastomer. In some embodiments, the supportingmembers372, thedam portions374, and theperipheral ring376 comprise different materials. Some embodiments of thedam portions374 comprise at least one of polymer, membrane, film, rubber, webbing, gauze, film, fabric, woven fabric, non-woven fabric, and knit fabric. In some embodiments, thedam portions374 comprise an elastomeric or stretchable material, for example spandex. Some embodiments of theinternal retractor370 further comprise at least one flexible reinforcing member, for example, one or more ribs disposed on, through, or within at least one supportingmember372,dam portion374, and/or theperipheral ring376. In some embodiments, at least one supporting reinforcingmember372 is elastically deformable. In some embodiments, at least one supportingmember372 is plastically deformable. Suitable materials for the supporting member are described above. Suitable materials for the reinforcingmembers372 include at least one of metal, a super elastic material, a shape memory material, polymer, fibers, and composites thereof. In some embodiments, the reinforcing members comprise at least one of wires, strips, bands, and the like.
In some embodiments, a retraction and/or retention force that theinternal retractor370 exerts on internal organs depends on the degree of inflation thereof. Consequently, the retraction and/or retention force is adjustable by the end user. Embodiments of the internal retractor are inflatable with gas, carbon dioxide, nitrogen, air, liquid, water, saline, Ringer's solution, isotonic solutions, and the like. In some embodiments, the inflation fluid is cooled and or heated as desired.
FIG. 4 is a perspective view of another embodiment of asurgical access device400 that is generally similar to the embodiments discussed above. Theaccess device400 comprises alongitudinal axis406 extending from aproximal end402 to adistal end404, anaccess channel408 extending through thedevice400, awound retractor450 at theproximal end402, and an adjustableinternal retractor470 at thedistal end404. Thewound retractor450 is generally similar to the embodiments of the wound retractor described above, and comprises anouter ring452, aninner ring454, and aflexible sheath456. Embodiments of theinternal retractor470 are integrated, preattached, or user attached to thewound retractor450, or used without coupling to a wound retractor, as discussed above.
In the illustrated embodiment, theinternal retractor470 comprises a plurality ofindividual segments472 arrayed in a fan-like configuration. In the illustrated embodiment, eachsegment472 angles away from thelongitudinal axis406. At least some of thesegments472 are slidably coupled to ahub480, thereby defining an iris-like or folding-fan structure, there by allowing a user to adjust an opening or window478 in the internal retractor as desired, thereby adjusting the degree of retention and/or retraction of internal organs. In the illustrated embodiment, thehub480 comprises one or more tracks in which a proximal end of at least somesegments472 is slidably coupled. In some embodiments, theinternal retainer470 comprises a one-way mechanism that permits opening in one direction, only. In some embodiments, at least a portion of some of thesegments472 is malleable or plastically deformable. In the illustrated embodiment, a flexible cover ordam474 similar to the cover or dam described above, is disposed over one or more of thesegments472.
FIG. 5 illustrates in a perspective view another embodiment of asurgical access device500 that is generally similar to the embodiments described above. Thesurgical access device500 comprises alongitudinal axis506 extending from aproximal end502 to adistal end504, anaccess channel508 extending through thedevice500, awound retractor550 disposed at theproximal end502 and aninternal retractor570 disposed at thedistal end504. Thewound retractor550 is generally similar to the embodiments of the wound retractor described above, and comprises anouter ring552, aninner ring554, and aflexible sheath556. Embodiments of theinternal retractor570 are integrated, preattached, or user attached to thewound retractor550, or used without coupling to a wound retractor, as discussed above.
Theinternal retractor570 comprises a distally extending skirt member574 and asupport member576 coupled to a distal portion of the skirt member574. Embodiments of the skirt member574 comprise any material as discussed above for the cover or dam portion. Embodiments of thesupport member576 comprise one or more of elastic, malleable, and/or plastically deformable portions, for example comprising one or more of the materials described above. In the illustrated embodiment, the support member574 comprises an inwardly extendingprojection582 defining and extending over an undercut orhollow portion584, which provides the support member574 with shape-memory characteristics. In other embodiments, the support member574 comprises a plurality of linked members, for example, ball-and-socket segments.
The illustrated embodiment also comprises awindow578. In some embodiments, thewindow578 is preformed. In others, thewindow578 is user created. In the illustrated embodiment, thewindow578 includes a gap in thesupport member576. In other embodiments, thewindow578 extends only through the skirt member574 and does not comprise a gap in thesupport member576.
FIG. 6A is a perspective view of another embodiment of anaccess device600 that is generally similar to the embodiments described above. Thesurgical access device600 comprises alongitudinal axis606 extending from aproximal end602 to adistal end604, anaccess channel608 extending through thedevice600, awound retractor650 disposed at theproximal end602 and aninternal retractor670. Thewound retractor650 is generally similar to the embodiments of the wound retractor described above, and comprises anouter ring652, aninner ring654, and aflexible sheath656. Embodiments of theinternal retractor670 are integrated, preattached, or user attached to thewound retractor650, or used without coupling to a wound retractor, as discussed above.
The internal retractor comprises atubular skirt674 coupled to thewound retractor650 and aretention ring676 coupled to the free end of theskirt674. In the illustrated embodiment, a diameter of theretention ring676 is larger than a diameter of theouter ring652 or theinner ring654. In the illustrated embodiment, thetubular skirt674 is coupled to the distal end of thewound retractor650, for example, theinner ring654. In other embodiments, thetubular skirt674 is coupled to the proximal end of the of thewound retractor650, for example, theouter ring652. Theskirt674 comprises any suitable flexible material, for example, the materials described above for the cover or dam portion. Theretention ring676 comprises a malleable, deformable, shapeable, plastically deformable, and/or elastically deformable material, for example any of the materials described above. Some embodiments of theretention ring676 comprise an internal malleable or plastically deformable spine. Some embodiments comprise a plurality of linked members, for example, ball-and-socket segments. Consequently, some embodiments of the retention ring are shapeable in a plane or in all directions.
The illustrated embodiment of theinternal retractor670 does not comprise a window. In some embodiments, one or more windows are preformed in theskirt674. In some embodiments, a user creates windows in theskirt674 as desired.
Theinternal retractor670 is illustrated in an undeployed state inFIG.6A with theretention ring676 is disposed proximally of theouter ring652 of thewound retractor650, with theskirt674 extending through theaccess channel608.FIGS.6B-6C illustrate a intermediate states in converting theinternal retractor670 from the undeployed state or configuration illustrated inFIG. 6A, to a deployed state or configuration illustrated inFIG. 6D in which theretention ring676 is distal of theinner ring654. In the illustrated method, theretention ring676 is passed through theaccess channel606 through thewound retractor650. In the conversion process, the large-diameter retention ring676 is squeezed, twisted, and/or otherwise deformed to a size that fits through theaccess channel608. In the deployed state or configuration illustrated inFIG. 6D, the large-diameter retention ring676 is shaped and/or adjusted to retract the internal organs from a desired area in the body cavity. For example, in some embodiments, theretention ring676 is nested beneath internal structures30 (FIGS.1B-1D), where the weight of thestructures30 secures theretention ring676 in place.
FIG. 7 illustrates in perspective view another embodiment of asurgical access device700 that is generally similar to the embodiments described above. Thesurgical access device700 comprises alongitudinal axis706 extending from aproximal end702 to adistal end704, anaccess channel708 extending through thedevice700, awound retractor750 disposed at theproximal end702 and aninternal retractor770. Thewound retractor750 is generally similar to the embodiments of the wound retractor described above, and comprises anouter ring752, aninner ring754, and aflexible sheath756. Embodiments of theinternal retractor770 are integrated, preattached, or user attached to thewound retractor750, or used without coupling to a wound retractor, as discussed above.
In the illustrated embodiment, theinternal retractor770 comprises a proximal, shorttubular skirt774 coupled to a distal,inflatable torus776. Some embodiments of theinternal retractor770 do not comprise a skirt. In the undeployed state, thetorus776 is uninflated, while in the deployed state, thetorus776 is selectively inflated. Some embodiments of theskirt774 and/ortorus776 comprise stiffening or reinforcing members.
FIG. 8 is a perspective view of another embodiment of anaccess device800 that is generally similar to the embodiments described above. Thesurgical access device800 comprises alongitudinal axis806 extending from aproximal end802 to adistal end804, anaccess channel808 extending through thedevice800, awound retractor850 disposed at theproximal end802 and aninternal retractor870. Thewound retractor850 is generally similar to the embodiments of the wound retractor described above, and comprises anouter ring852, aninner ring854, and aflexible sheath856. Embodiments of theinternal retractor870 are integrated, preattached, or user attached to thewound retractor850, or used without coupling to a wound retractor, as discussed above.
In the illustrated embodiment, theinternal retractor870 comprises a generally hollow cylinder or tube with open ends through which the access channel extends. In other embodiments, theinternal retractor870 has another shape, for example, an elliptical cylinder, or frustoconical with the larger end distal or with the smaller end distal. Embodiments of theinternal retractor870 are manufactured in a range of diameters and/or lengths. Theinternal retractor870 is elastically deformable or plastically deformable. In some embodiments, one or more portions of theinternal retractor870 are elastically deformable and one or more portions are plastically deformable. Plastically deformable portions permit a user to shape theinternal retractor870 as desired. Theinternal retractor870 is sufficiently deformable radially to permit insertion through an incision and/or thewound retractor850.
In the illustrated embodiment, theinternal retractor870 comprises a plurality of stacked,annular segments872. In the illustrated embodiment, theannular segments872 are toroidal; however, in other embodiments, the annular segments have other shapes and/or a mixture of shapes. In some embodiments, the annular segments are detachable or separable from each other, for example, by cutting or tearing, which permits a user to adjust a length of the internal retractor. Some embodiments of theinternal retractor870 are separable longitudinally, for example, using one or more partial or complete longitudinal cuts, which permits a user to generate openings or windows as desired. Some embodiments of theinternal retractor870 further comprise a complete or partial cover, as discussed above.
In some embodiments, theinternal retractor870 is coupled to thewound retractor850 such that theinternal retractor870 is translatable, thereby permitting the user to isolate a surgical field that is not directly below thewound retractor850. In use, thewound retractor850 is well anchored to a patient, thereby anchoring theinternal retractor870. Suitable coupling devices are known in the art, for example, rods, bars, clamps, clips, swivels, hinges, and the like. In some embodiments, theinternal retractor870 is not coupled to thewound retractor850.
FIG. 9 is a perspective view of another embodiment of aninternal retractor970, which is similar to the embodiments described above. Theinternal retractor970 is integrated with, couplable with, used with, or used independently of a wound retractor, as discussed above. The illustrated embodiment of theinternal retractor970 comprises alongitudinal axis906, anaccess channel908, and aserpentine frame972 defining a hollow cylinder or tube. In other embodiments, theframe972 defines a different shape, for example, frustoconical or an elliptical cylinder. Theserpentine frame972 defines a plurality of circumferential voids oropenings982 in the cylindrical surface into whichcircumferential fingers984 defined by theframe972 interleave when theframe972 is compressed radially, for example, when inserting theinternal retractor970. Those skilled in the art will understand that in other embodiments, theserpentine frame972 has a different shape that definesvoids982 andfingers984 with different shapes. Theframe972 comprises a plastically deformable material, an elastically deformable material, or a combination thereof. In embodiments comprising a plastically deformable material, theinternal retractor970 is reshapeable or adjustable on deployment.
In the illustrated embodiment, theinternal retractor970 further comprises a cover ordam portion974, as discussed above. In some embodiments, the cover is cuttable through avoid area986, which permits further adjustment in the deployed state. Other embodiments do not comprise a cover or dam portion.
FIG. 10A is a perspective view of another embodiment of aninternal retractor1070, which is similar to the embodiments described above. Theinternal retractor1070 is integrated with, couplable with, used with, or used independently of a wound retractor, as discussed above. The illustrated embodiment of theinternal retractor1070 comprises alongitudinal axis1006, anaccess channel1008, and aserpentine frame1072 defining a hollow cylinder or tube. In other embodiments, theframe1072 defines a different shape, for example, frustoconical or an elliptical cylinder. Theserpentine frame1072 defines a plurality of longitudinal voids oropenings1082 in the cylindrical surface, which permit a user to compress theframe1072 radially, for example, when inserting theinternal retractor1070. Those skilled in the art will understand that in other embodiments, theframe1072 comprises a plurality of longitudinal members instead of a single serpentine or sinuous member. Theframe1072 comprises a plastically deformable material, an elastically deformable material, or a combination thereof. In embodiments comprising a plastically deformable material, theinternal retractor1070 is reshapeable or adjustable on deployment.
The illustrated embodiment further comprises adistal support member1076 disposed at a distal end of theinternal retractor1070. As illustrated inFIG. 10B in an undeployed state, theinternal retractor1070 is conical. In deploying theinternal retractor1070, thedistal support member1076 is advanced along theaccess channel1008 until it engages a distal end of theframe1072, for example in a set ofhooks1086, as shown inFIG. 10C.
Some embodiments of theinternal retractor1070 comprise a cover or dam portion (not illustrated). Some embodiments are openable, for example, by cutting thedistal support member1076, if present, or portions of theframe1072, which permits additional adjustability.
FIG. 11 is a perspective view of another embodiment of aninternal retractor1170, which is similar to the embodiments described above. Theinternal retractor1170 is integrated with, couplable with, used with, or used independently of a wound retractor, as discussed above. The illustrated embodiment of theinternal retractor1170 comprises a longitudinal axis1106, anaccess channel1108, and alattice frame1172 defining a hollow cylinder or tube. In other embodiments, theframe1172 defines a different shape, for example, frustoconical or an elliptical cylinder. Thelattice frame1172 defines a plurality of voids oropenings1182 in the cylindrical surface, which permit a user to compress theframe1172 radially, for example, when inserting theinternal retractor1170. In the illustrated embodiment, theframe1172 comprises a diamond lattice. In other embodiments, theframe1172 comprises a different lattice, for example, a hexagonal lattice. Theframe1172 comprises a plastically deformable material, an elastically deformable material, or a combination thereof. In embodiments comprising a plastically deformable material, theinternal retractor1170 is reshapeable or adjustable on deployment.
In the illustrated embodiment, theinternal retractor1170 further comprises a cover or dam portion1174, as discussed above. Other embodiments do not comprise a cover or dam portion. Some embodiments are openable, for example, by cutting portions of theframe1172, which permits additional adjustability.
FIG. 12 is a perspective view of another embodiment of aninternal retractor1270, which is similar to the embodiments described above. Theinternal retractor1270 is integrated with, couplable with, used with, or used independently of a wound retractor, as discussed above. The illustrated embodiment of theinternal retractor1270 comprises alongitudinal axis1206 extending between aproximal end1202 and adistal end1204, adeformable frame1272, and a cover ordam portion1274. The illustrated embodiment also comprises aconnection feature1280, which permits coupling theinternal retractor1270 to a wound retractor, as discussed above. In the illustrated embodiment, theframe1272 defines a generally rectangularinternal retractor1270. In other embodiments, theframe1272 defines a different shape, for example, trapezoidal or rhomboidal. Theframe1272 is serpentine in the illustrated embodiment. In other embodiments, theframe1272 has a different structure, for example, a lattice, a mesh, a solid sheet, a perforated sheet, or a combination of structures. Theframe1272 comprises a plastically deformable material, an elastically deformable material, or a combination thereof. In embodiments comprising a plastically deformable material, theinternal retractor1270 is reshapeable or adjustable on deployment.
In the illustrated embodiment, theinternal retractor1270 further comprises a cover ordam portion1274, as discussed above. Other embodiments do not comprise a cover or dam portion. Some embodiments are reshapeable, for example, by cutting portions of theframe1272 and/orcover1274, which permits additional adjustability.
FIG. 13A illustrates a side view another embodiment of asurgical access device1300 that is generally similar to the embodiments described above. Thesurgical access device1300 comprises alongitudinal axis1306 extending from aproximal end1302 to adistal end1304, anaccess channel1308 extending through thedevice1300, awound retractor1350 disposed at theproximal end1302 and aninternal retractor1370. Thewound retractor1350 is generally similar to the embodiments of the wound retractor described above, and comprises anouter ring1352, aninner ring1354, and aflexible sheath1356. Embodiments of theinternal retractor1370 are integrated, preattached, or user attached to thewound retractor1350, or used without coupling to a wound retractor, as discussed above.
As best seen in the detailed view inFIG. 12B, the internal retractor comprises abody1372 comprising agroove1380 extending at least partially along a proximal edge thereof, which is dimensioned to receive theinner ring1354 of thewound retractor1350 therein. Thebody1372 comprises a plastically deformable material, an elastically deformable material, or a combination thereof. In embodiments comprising a plastically deformable material, thebody1372 is reshapeable or adjustable on deployment. In some embodiments, thebody1372 is tubular and dimensioned to the diameter of theinner ring1354. In other embodiments, thebody1372 is supplied as an elongate strip. In either case, some embodiments of thebody1372 may be trimmed as desired.
In the illustrated embodiment, aconnection feature1388 extends at least partially along the distal edge of thebody1372. As best seen in the perspective view inFIG. 13C, theconnection feature1388 of thebody1372 couples to anextender1390, which comprises acomplementary connector1392a extending at least partially along a proximal edge of theextender1390. In the illustrated embodiment, theconnection feature1388 and thecomplementary connector1392a are self-complementary, that is, have the same shape. As with thebody1372, theextender1390 comprises an elastically deformable material, plastically deformable material, or a combination thereof. In the illustrated embodiment, theextender1390 further comprises a secondcomplementary connector1392b disposed along at least a portion of a distal edge of theextender1390, which permits a user to add asmany extenders1390 as desired. Consequently, in the illustrated embodiment, theinternal retractor1370 comprises thebody1372 and any number ofextenders1390 desired.
In other embodiments, theconnection feature1388 has the same cross-sectional shape as theinner ring1354 of thewound retractor1350. Consequently, thebody1372 is also an extender in these embodiments.
FIG. 14 is a perspective view of another embodiment of aninternal retractor1470, which is similar to the embodiments described above. The illustrated embodiment of theinternal retractor1470 comprises alongitudinal axis1406 extending between aproximal end1402 and adistal end1404, anaccess channel1408, and a plurality of shapeable members1472. The shapeable members are similar to theshapeable members272 described above, except that the shapeable members1472 of the illustrated embodiment are coupled to anouter ring1452 of a wound retractor rather than an inner ring.
In the illustrated embodiment, the proximal end of each shapeable member1472 comprises aconnection feature1480 that couples the shapeable member1472 to theouter ring1452. The illustrated configuration permits a user to determine the number and spacing of shapeable members1472 used in any particular situation. In one embodiment, the user inserts a distal end of the shapeable member1472 through theaccess channel1408, then couples the shapeable member1472 to theouter ring1452.
In other embodiments, one or more shapeable members1472 are deployed as a unit, for example, comprising acommon connection feature1480. In some embodiments comprising acommon connection feature1480, the shapeable members1472 are substantially longitudinal or convergent when inserted through theaccess channel1408, then reshaped after coupling to theouter ring1452.
FIG. 15 is a perspective view of another embodiment of aninternal retractor1570, which is similar to the embodiments described above. The illustrated embodiment of theinternal retractor1570 comprises alongitudinal axis1506 extending between aproximal end1502 and adistal end1504, anaccess channel1508, and a plurality ofshapeable members1572. The shapeable members are similar to theshapeable members272 and described above, except that theshapeable members1572 of the illustrated embodiment are coupled to anouter ring1552 of a wound retractor rather than an inner ring.
In the illustrated embodiment, anarcuate base1580 releasably mates with theouter ring1552. In other embodiments, the connection feature has a different arc length, for example, a full circle. Thebase1580 comprises aconnector1582 that couples to theshapeable members1572. In the illustrated embodiment, theconnector1582 comprises a T-track into which is received a complementary portion disposed at a proximal end of each shapeable member1472. Those skilled in the art will understand that other embodiments use connectors with other configurations, for example, rails, tracks, holes, posts, and the like. In the illustrated embodiment, theconnector1582 is disposed along an inner surface of the base. In other embodiments, the connector is disposed on another surface, for example, a proximal face, an outer face, or a face at another angle to thelongitudinal axis1506. Theshapeable members1572 are slidable along the T-track. The T-track comprises agap1584 dimensioned to permit a user to insert or remove shapeable member therethrough. The illustrated configuration permits a user to determine the number and spacing ofshapeable members1572 used in any particular situation. In one embodiment, the user couples thebase1580 to theouter ring1552, inserts a distal end of theshapeable member1572 through theaccess channel1508, aligns the shapeable member with thegap1584, then couples theshapeable member1572 to theconnector1582.
An embodiment of a method for using a surgical access device in abdominal surgery is schematically illustrated inFIGS.16A-16C and described with reference to the embodiment of theaccess device300 illustrated inFIG. 3, although one skilled in the art will understand that the method is also applicable to all of the embodiments of the access device described herein.FIG. 16A is a side, partial cross section of a patient in which awound retractor350 has been placed through abody wall40 and into abody cavity42, which is an abdominal cavity in this case. Theinner ring354 andinternal retractor370 are first inserted through an incision in thebody wall40 into thebody cavity42. Theouter ring352 is then inverted through or rotated around itself, thereby winding thetubular sheath356 around theouter ring352, thereby retracting the incision. In some embodiments, theouter ring352 of the proximal portion is easily invertible in a snap-over motion, which provides a neutral position that resists rotation under tension generated in the retraction process. The tension secures theretractor350 to thebody wall40.
In the illustrated embodiment, theabdominal cavity42 is inflated with gas, thereby facilitating access tointernal structures30. In some embodiments, a cap or cover (not illustrated) is secured to the proximal portion of theretractor350, thereby creating a substantially gas-tight closure to thebody cavity42, after which, thebody cavity42 is inflated or insufflated, for example, with CO2 gas.
Theinternal retractor370 is then deployed as desired within thebody cavity42, thereby retracting or retaining internal structures during the surgical procedure.FIG. 16A illustrates thesurgical site70 before deploying theinternal retractor370. For example, in the illustrated procedure, the position ofabdominal content30 is adjusted for an operation below thesmall intestine32.FIGS.16B illustrates a front partial cross section andFIG. 16C illustrates a side partial cross section of a retention pattern in which theinternal retractor370 holds thesmall intestine32 away from theoperative site70.
In the illustrated embodiment, deploying theinternal retractor370 comprises positioning theperipheral ring376 of theinternal retractor370, and inflating the inflatable supportingmember372 to a desire state of retention or retraction of theinternal structures30. The inflatedinternal retractor370 dams or walls-off loose structures from theoperative site70. In inserting theaccess device300, as well as in deploying theinternal retractor370, theinternal retractor370 is manipulated manually and/or with an instrument. For example, in some embodiments, theaccess device300 is dimensioned and configured for access to thebody cavity22 by a surgeon'shand 100 through theorifice access channel608 of theaccess device300. Other embodiments use asmaller access device300 that is sized and configured to accept surgical instruments, such as laparoscopic tools, therethrough, but not a hand. In some cases, using a single,smaller device300 limits the number of incisions needed in a laparoscopic procedure. Those skilled in the art will understand that the particular deployment procedure for the extendable member differs for each embodiment described above.
While certain embodiments have been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope thereof as defined by the following claims.
Potentially inventive aspects of the invention are identified by the following clauses.
Clause 1. A surgical access device comprising:
- a proximal end, a distal end, a longitudinal axis extending from the proximal end to the distal end, and an access channel extending therethrough;
- a wound retractor comprising an outer ring, an inner ring, and a tubular sheath extending between the outer ring and the inner ring; and
- an internal retractor coupled to the wound retractor in an operative state of the surgical access device, wherein in the operative state, at least a portion of the internal retractor extends distally of the inner ring.
- Clause 2. The surgical access device of clause 1, wherein the outer ring of the wound retractor is rotatable around an annular axis thereof, thereby permitting adjustment of an effective length of the tubular sheath between the inner ring and the outer ring.
- Clause 3. The surgical access device of clause 1, wherein the internal retractor and the wound retractor are integrated.
- Clause 4. The surgical access device of clause 1, wherein the internal retractor is user coupled to the wound retractor in the operative state.
- Clause 5. The surgical access device of clause 1, wherein at least a portion of the internal retractor is adjustable by at least one of bending, twisting, stretching, compressing, inflating, cutting, tearing, removing, and sliding.
- Clause 6. The surgical access device of clause 1, wherein the internal retractor comprises at least one of a flexible cover and a dam portion.
- Clause 7. The surgical access device of clause 1, wherein the internal retractor comprises at least one window therethrough.
- Clause 8. The surgical access device of clause 1, wherein the internal retractor comprises a plurality of elongate, distally extending shapeable members.
- Clause 9. The surgical access device of clause 8, wherein the shapeable members are coupled to the inner ring of the wound retractor.
- Clause 10. The surgical access device of clause 8, wherein the shapeable members are coupled to the outer ring of the wound retractor.
- Clause 11. The surgical access device ofclause 10, wherein the internal retractor further comprises a connection feature or base coupling the shapeable member to the outer ring.
- Clause 12. The surgical access device of clause 1, wherein the internal retractor comprises a plurality of inflatable supporting members, a plurality of dam portions extending between adjacent supporting members, and a peripheral ring.
- Clause 13. The surgical access device of clause 1, wherein the internal retractor comprises a plurality of segments extending from a hub and slidable on the hub in a folding-fan structure.
- Clause 14. The surgical access device of clause 1, wherein the internal retractor comprises a skirt member extending distally of the wound retractor and a support member coupled to a distal end of the skirt member.
- Clause 15. The surgical access device of clause 14, wherein the support member comprises at least one of an elastically deformable material, a plastically deformable material, and a plurality of linked members.
- Clause 16. The surgical access device of clause 1, wherein the internal retractor comprises a tubular skirt extending distally from the wound retractor in the operative state, and a retention ring disposed at a distal end of the tubular skirt, wherein a diameter of the retention ring is larger than a diameter of at least one of the inner ring and the outer ring of the wound retractor, and wherein the retention ring is sufficiently deformable to pass through the wound retractor.
- Clause 17. The surgical access device of clause 1, wherein the internal retractor comprises an inflatable torus.
- Clause 18. The surgical access device of clause 1, wherein the internal retractor comprises a radially deformable tube.
- Clause 19. The surgical access device of clause 18, wherein the tube is substantially cylindrical, elliptical cylindrical, or frustoconical.
- Clause 20. The surgical access device of clause 18, wherein the tube comprises a plurality of stacked, annular segments.
- Clause 21. The surgical access device ofclause 20, wherein at least one of the annular segments is detachable from the tube.
- Clause 22. The surgical access device of clause 1, wherein the internal retractor comprises a radially compressible frame defining a tube.
- Clause 23. The surgical access device ofclause 22, wherein the frame comprises at least one of a circumferentially serpentine member, a longitudinally serpentine member, and a lattice.
- Clause 24. The surgical access device ofclause 22, further comprising a cover disposed over the frame.
- Clause 25. The surgical access device of clause 1, wherein the internal retractor comprises a deformable, planar frame, a cover disposed over the frame, and a connection feature couplable to the wound retractor.
- Clause 26. The surgical access device of clause 1, wherein the internal retractor comprises a body comprising a groove along at least a portion thereof, wherein the groove is dimensioned to receive the inner ring of the wound retractor therein.
- Clause 27. The surgical access device of clause 26, wherein the body further comprises a connection feature disposed along at least a portion of a distal edge thereof, wherein the connection feature is couplable with an extender comprising a complementary connector disposed along at least a portion of a proximal edge thereof.
- Clause 28. The surgical access device of clause 27 wherein the connector of the extender is a first connector, and a distal edge of the extender further comprises a second connector disposed along at least a portion thereof that is couplable with a second extender.
- Clause 29. A surgical access device comprising:
- a proximal end, a distal end, a longitudinal axis extending from the proximal end to the distal end, and an access channel extending therethrough;
- a wound retractor comprising an outer ring, an inner ring, and a tubular sheath extending between the outer ring and the inner ring; and
- means for retracting contents of a body cavity coupled to the wound retractor.
- Clause 30. A method for defining a surgical field in a body cavity comprising: inse
- rting the inner ring of the wound retractor of the surgical access device of clause 1 through an opening in a body wall and into a body cavity;
- retracting the opening in the body wall; and
- deploying the adjustable internal retractor within the body cavity and defining a surgical field.